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Fluorescent molecular rotors based on the BODIPY motif: effect of remote substituents

Bahaidarah, Effat; Harriman, Anthony; Stachelek, Patrycja; Rihn, Sandra; Heyer, Elodie; Ziessel, Raymond

Authors

Effat Bahaidarah

Anthony Harriman

Profile image of Patrycja Brook

Dr Patrycja Brook patrycja.stachelek@durham.ac.uk
Royal Society University Research Fellow

Sandra Rihn

Elodie Heyer

Raymond Ziessel



Abstract

The ability of an unconstrained boron dipyrromethene dye to report on changes in local viscosity is improved by appending a single aryl ring at the lower rim of the dipyrrin core. Recovering the symmetry by attaching an identical aryl ring on the opposite side of the lower rim greatly diminishes the sensory activity, as does blocking rotation of the meso-aryl group. On the basis of viscosity- and temperature-dependence studies, together with quantum chemical calculations, it is proposed that a single aryl ring at the 3-position extends the molecular surface area that undergoes structural distortion during internal rotation. The substitution pattern at the lower rim also affects the harmonic frequencies at the bottom of the potential well and at the top of the barrier. These effects can be correlated with the separation of the H1,H7 hydrogen atoms.

Citation

Bahaidarah, E., Harriman, A., Stachelek, P., Rihn, S., Heyer, E., & Ziessel, R. (2014). Fluorescent molecular rotors based on the BODIPY motif: effect of remote substituents. Photochemical & Photobiological Sciences, 13(10), 1397-1401. https://doi.org/10.1039/c4pp00204k

Journal Article Type Article
Acceptance Date Jul 28, 2014
Online Publication Date Oct 1, 2014
Publication Date 2014-10
Deposit Date Oct 29, 2020
Journal Photochem. Photobiol. Sci.
Print ISSN 1474-905X
Electronic ISSN 1474-9092
Publisher Springer
Peer Reviewed Peer Reviewed
Volume 13
Issue 10
Pages 1397-1401
DOI https://doi.org/10.1039/c4pp00204k
Public URL https://durham-repository.worktribe.com/output/1258631



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